Influência de três tipos de barragens sobre atributos ecológicos da ictiofauna no Rio Paraíba do Sul, RJ, Brasil

Albieri, Rafael Jardim

Please use this identifier to cite or link to this item: https://rima.ufrrj.br/jspui/handle/20.500.14407/9188

Full metadata record

DC Field	Value	Language
dc.contributor.author	Albieri, Rafael Jardim
dc.date.accessioned	2023-12-21T18:36:00Z	-
dc.date.available	2023-12-21T18:36:00Z	-
dc.date.issued	2012-08-23
dc.identifier.citation	ALBIERI, Rafael Jardim. Influência de três tipos de barragens sobre atributos ecológicos da ictiofauna no Rio Paraíba do Sul, RJ, Brasil. 2012. 79 f. Tese (Doutorado em Biologia Animal) - Instituto de Ciências Biológicas e da Saúde, Universidade Federal Rural do Rio de Janeiro, Seropédica, 2012.	por
dc.identifier.uri	https://rima.ufrrj.br/jspui/handle/20.500.14407/9188	-
dc.description.abstract	Foi investigada a influência de três tipos de barragens sobre a estrutura da comunidade de peixes ao longo de um rio no Sudeste do Brasil. Foram estudadas comparações da assembleia de peixes entre habitats a montante e a jusante de barragens para detectar possíveis diferenças da comunidade de peixes entre estes dois habitat em duas estações do ano (chuvosa e seca). Os três tipos de barragens e passagens de peixes associadas usadas como modelo foram: (i) barramento total, (ii) barramento parcial/ canal lateral e (iii) barramento total com escada de peixes. A hipótese testada foi que existem diferenças na composição das comunidades de peixes entre os habitats lênticos acima das barragens (reservatórios) e seus respectivos trechos de rio (lótico) a jusante da barragem. Esperou-se uma assembleia de peixes impactada com as maiores diferenças na ictiofauna entre habitats a montante e a jusante em (i), diferenças intermediárias em (iii) e diferenças menos evidentes em (ii). Adicionalmente, investigações secundárias foram feitas, contudo utilizando os modelos de estudo separadamente. Quando investigado (ii) o barramento parcial, um barramento com conexão hidrológica permanente e homogeneidade ambiental entre fragmentos, descobriu-se que estes atributos não foram capazes de evitar o impacto negativo da fragmentação sobre assembleias de peixes do rio. O reservatório e o rio a jusante apresentaram diferentes estrutura e composição da assembleia. Espécies de peixes migratórios, como Pimelodus maculatus, Pimelodus fur e Prochilodus lineatus foram os mais afetados, e, provavelmente, são impedidos de realizar migrações rio acima. Por outro lado, apenas espécies adaptadas tais como Hoplias malabaricus e Hoplosternum littorale obtiveram sucesso na colonização do reservatório. Portanto, concluí-se que a presença de somente a conectividade hidrológica, certamente não garante a conectividade ecológica e, consequentemente, estruturas de passagem de peixes devem ser monitoradas e manejadas para avaliar e melhorar a sua funcionalidade e eficiência. Outra pesquisa foi feita no (i) barramento total para avaliar os possíveis impactos deste represamento, considerando duas condições ambientais contrastantes: estações chuvosa/verão e seca/inverno. Uma mudança nos parâmetros bióticos e abióticos ocorreu devido ao contraste entre o reservatório e a zona a jusante. A complexidade do habitat relativamente alta e o regime de fluxo de água a jusante favoreceu uma assembleia de peixes mais rica e abundânte, especialmente na estação chuvosa. Neste período, as águas cobrem parte da vegetação ciliar, aumentando a disponibilidade de habitat e aporte de nutrientes. Além disso, a obstrução das migrações de peixes rio acima, principalmente na estação chuvosa, como Leporinus copelandii, Pimelodus fur, Pimelodus maculatus e Prochilodus lineatus aumentam a concentração de cardumes a jusante da barragem. Embora o reservatório represente um ecossistema simplificado, altamente influenciado por espécies nãonativas predadoras de topo (Cichla kelberi e Plagioscion squamosissimus), processos cíclicos (e. g., flutuações do nível da água e pulsos de inundação) parecem estar envolvidos na estruturação das assembleias de peixes. As cinco variáveis ambientais selecionadas explicaram 55% dos padrões espaço-temporais, definido principalmente viii pela turbidez (a jusante), temperatura e oxigênio dissolvido (no reservatório). Peixes predadores visuais, mudanças sazonais e processo de eutrofização foram relacionados a estas variáveis, respectivamente. Finalmente, a hipótese principal do estudo foi aceita, mas as expectativas não foram totalmente corroboradas. Diferenças nas assembleia de peixes entre habitats a montante e a jusante foram maiores no (i) bloqueio total. No entanto, o (ii) bloqueio parcial/canal lateral apresentou diferenças maiores na fauna de peixes do que o (iii) bloqueio total, com escada de peixes, principalmente na estação chuvosa, quando cheias funcionam como gatilho para diversas funções biológicas (e.g. movimentos de dispersão e migração reprodutiva) em peixes de água doce Neotropicais. Adicionalmente, a riqueza de espécies foi maior em habitats a jusante, como um efeito da heterogeneidade de habitats e de concentração de peixes abaixo das barragens devido ao bloqueio da migração. Neste estudo, foram fornecidas informações que podem contribuir para os programas de gestão e projetos futuros, bem como o melhoramento da base de dados da ecologia de ambientes aquáticos continentais.	por
dc.description.sponsorship	CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico	por
dc.format	application/pdf	*
dc.language	por	por
dc.publisher	Universidade Federal Rural do Rio de Janeiro	por
dc.rights	Acesso Aberto	por
dc.subject	Peixes de água doce	por
dc.subject	Reservatórios	por
dc.subject	Fragmentação de rios	por
dc.subject	Freshwater fish	eng
dc.subject	Reservoir	eng
dc.subject	River fragmentation	eng
dc.title	Influência de três tipos de barragens sobre atributos ecológicos da ictiofauna no Rio Paraíba do Sul, RJ, Brasil	por
dc.title.alternative	Influence of three types of dams on the ecological attributes of fish assemblage in Paraíba do Sul River, RJ, Brazil	eng
dc.type	Tese	por
dc.description.abstractOther	Influences of three types of dams on fish community structure along a river from Southeastern Brazil were investigated. Comparison of fish assemblages between above- and below-dam habitats was studied in order to detect possible differences in fish community between these habitats in two seasons (wet and dry). The three types of dams and associated fishways used as models were: (i) total blockage, (ii) partial blockage/side channel and (iii) total blockage with fish ladder. The tested hypothesis was that there are differences in fish assemblage composition between above- and below-dams habitats. We expected an impacted fish assemblage with the highest differences in fish fauna between up and downriver habitats in (i), intermediate in (iii) and less evident in (ii). Additionally, secondary investigations were made using models separately. When we investigated (ii) partial blockage, an impoundment with permanent hydrologic connection and environmental homogeneity between patches, we found that these attributes were not able to avoid the negative impact of river fragmentation on fish assemblage. The above- and below-dam had different fish assemblage composition and structure. Migratory fish species such as Pimelodus maculatus, Pimelodus fur and Prochilodus lineatus were the most affected, and probably are prevented to perform upriver migrations. On the other hand, only adapted species such as Hoplias malabaricus and Hoplosternum littorale successfully colonized the reservoir (above-dam). Therefore, for this investigation, we conclude that the presence of a hydrologic connectivity alone certainly does not guarantee an ecological connectivity and, consequently, fish passage facilities should be monitored and managed to evaluate and improve their functionality and efficiency. Another research was made in (i) total blockage to evaluate the possible impacts of this impoundment, considering two contrasting environmental conditions: wet/summer and dry/winter seasons. A major shift in biotic and abiotic parameters occurred due to contrast between above- and below-dams habitats. The comparatively high habitat complexity and water flow regime of the below-dam downriver zone favored a richer and abundant fish assemblage, especially in the wet season. In this period, the waters cover part of the riparian vegetation, increasing habitat availability and nutrient input. Additionally, the obstruction of upriver migrations of reophilics, mainly in wet season, such as Leporinus copelandii, Pimelodus fur, Pimelodus maculatus and Prochilodus lineatus increases shoals below dams. Although the reservoir represents a simplified ecosystem, highly influenced by non-native top predator species (Cichla kelberi and Plagioscion squamosissimus), cyclic processes (e.g. water level fluctuations and flood pulses) seems to be involved in the structuring of fish assemblages. The five selected environmental variables, although highly influenced by the impoundment, explained 55% of spatio-temporal patterns, defined mainly by turbidity (downriver) temperature, and dissolved oxygen (reservoir). Visual-predators fishes, seasonal changes and eutrophication process were linked to these variables, respectively. Finally, our main hypothesis was accepted but our expectations were not fully matched. Differences of fish assemblage between above- and below-dams habitats were highest in (i) total x blockage. However, partial blockage/side channel (ii) showed higher differences in fish fauna than (iii) total blockage with fish ladder, mainly in wet season, when flood triggers biological features (e.g. dispersal movements and reproductive migration) in Neotropical freshwater fish. Moreover, species richness was higher in downriver habitats, as an effect of habitat heterogeneity and fish concentration down the dams because impairment of migration. We provide information that may contribute to management programs and future projects as well as enhance freshwater ecology data base.	eng
dc.contributor.advisor1	Araújo, Francisco Gerson
dc.contributor.advisor1ID	040.983.233-20	por
dc.contributor.advisor1Lattes	http://lattes.cnpq.br/7898069293489622	por
dc.contributor.referee1	Dias, Gustavo Muniz
dc.contributor.referee2	Pompeu, Paulo dos Santos
dc.contributor.referee3	Costa, Marcus Rodrigues da
dc.contributor.referee4	Gomes, Iracema David
dc.creator.ID	099.191.107-52	por
dc.creator.Lattes	http://lattes.cnpq.br/1773360233553480	por
dc.publisher.country	Brasil	por
dc.publisher.department	Instituto de Ciências Biológicas e da Saúde	por
dc.publisher.initials	UFRRJ	por
dc.publisher.program	Programa de Pós-Graduação em Biologia Animal	por
dc.relation.references	AGOSTINHO, A. A., L. C. GOMES & F. M. PELICICE. 2007. Ecologia e manejo de recursos pesqueiros em reservatórios do Brasil. Maringá, EDUEM, 501p. AGOSTINHO, A. A., L. C. GOMES, H. I. SUZUKI & H. F. JÚLIO-JR. 2003. Migratory fishes of the Upper Paraná river basin, Brazil. Pp. 19-98. In: CAROLSFELD, J., B. HARVEY, C. ROSS & A. BAER (Eds). Migratory fishes of South America: biology, fisheries and conservation status. Ottawa, International Development Research Centre/ World Bank, 372p. AGOSTINHO, A. A., L. C. GOMES, S. VERÍSSIMO & E. K. OKADA. 2004. Flood regime, dam regulation and fish in the Upper Paraná river: effects on assemblage attributes, reproduction and recruitment. Reviews in Fish Biology and Fisheries, 14: 11-19. ALLAN, J. D. 1995. Stream ecology: Structure and function of running waters. Netherlands, Kluwer Academic Publishers, 388p. ANDERSON, O. R. & S. J. GUTREUTER. 1989. Length Weight Associated Structural Indices. In: Nielsen, L. D. & D. L. Johnson. Fisheries Technology: American Fisheries Society. Pp. 283-300. ARAUJO, F. G. 1996. Composição e Estrutura da comunidade de peixes do médio e baixo Rio Paraíba do Sul, RJ. Revista Brasileira de Biologia, 56, 1, 111-126. ARAUJO, F. G., I. FICHBERG, B. C. T. PINTO, M.G. PEIXOTO. 2001. Variações espaciais nas assembleias de peixes no Rio Paraíba do Sul (Barra Mansa - Barra do Pirai), Rio de Janeiro, Brasil. Revista Brasileira de Zoologia, 18, 2, p. 483-492. ARAÚJO, F.G., PINTO, B. C. T. & TEIXEIRA, T. P. 2009. Longitudinal patterns of fish assemblages in a large tropical river in southeastern Brazil: evaluating environmental influences and some concepts in river ecology. Hydrobiologia 618/89 – 107. ARAÚJO, J. R. S. & G. W. NUNAN. 2005. Ictiofauna do rio Paraíba do Sul: danos ambientais e sociais causados por barragens, hidrelétricas e poluição no trecho fluminense. Rio de Janeiro, CPDMA-ALERJ, 59p. Disponível em: www.minc.com.br/mandato/meioambi/relatoriopeixesbarragens.pdf. 8 BAIGÚN, C. R. M., NESTLER, J. M., OLDANI, N.O., GOODWIN, R. A. & WEBER, L.J. 2007. Can North American fish passage tools work for South American migratory fishes? Neotropical Ichthyology 5: 109–119. BARBIERE E.B. & D.M.P KRONEMBERGER. 1994. Climatologia do litoral sul-sudeste do estado do Rio de Janeiro. Caderno Geociências 12: 57–73. BIZERRIL, C. R. S. F. 1999. The ichthyofauna of the Rio Paraíba do Sul watershed. Biodiversity and biogeografic patterns. Brazilian Archives of Biology and Technology 42:233-250. BIZERRIL, C. R. S. F & P. B. S. PRIMO. 2001. Peixes de águas interiores do Estado do Rio de Janeiro. Série SEMADS 5. Projeto Planágua-SEMADS/GTZ de cooperação técnica Alemanha-Brasil. Rio de Janeiro, FEMAR-SEMADS, 417p. BRANCO W.C.C., M.I.A. ROCHA, F.S.P. PINTO, G.A. GÔMARA & R. FILIPPO. 2002. Limnological features of Funil Reservoir (RJ, Brazil) and indicator properties of rotifers and cladocerans of zooplankton community. Lake and Reservoir Management 7: 87-92. CARAMASCHI, E. P., J. M, R. ARANHA, H. S. THIAGO, D. F. MORAES JR., D. A. HALBOTH, J. H. C. GOMES, M. VIANNA, M. S. MENEZES & D. FRANCISCHINI. 1991. Levantamento da ictiofauna do rio Paraíba do Sul e ciclo reprodutivo das principais espécies, no trecho compreendido entre Três Rios e Campos. Vol II. Aspectos reprodutivos da ictiofauna. Rio de Janeiro, Furnas Centrais Elétricas S. A., 190p. CARVALHO C.E.V. & J.P.M. TORRES. 2002. The ecohydrology of the Paraíba do Sul river, Southeast Brazil. In MCCLAIN ME (ed.), The ecohydrology of South American Rivers and Wetlands. The IAHS Series of Special Publications. Venice, Italy, pp. 179–191. ESCHMEYER, W. 2006. The Catalog of fishes on-line. Disponível em: <http://calacademy.org/research/ichthyology/catalog/classif.html>. FERNANDO C. H & HOLCIK J. 1991. Fish in reservoirs. Internationale Revue der Gesamten Hydrobiologie 76: 149–167. GILLETTE, D. P., J. S. TIEMANN, D. R. EDDS & M. L. WILDHABER. 2005. Spatiotemporal patterns of fish assemblage structure in a river impounded by low-head dams. Copeia, 3: 539-549. GORE, J. A. 1996. Responses of aquatic biota to hydrological change. Pp. 209-230. In: PETTS, G. & P. CALOW. (Eds.). 1996. River biota: diversity and dynamics. United Kingdom, Blackwell Science, 257p. GOTELLI, N.J. & D.J. MCCABE. 2002. Species co-occurrence: a meta-analysis of J.M. Diamond’s assembly rules model. Ecology 83:2091-2096. GRAY, S. C., S. S. DE SILVA, B. A. INGRAM & G. J. GOOLEY. 2000. Effects of river impoundment on body condition and reproductive performance of the Australian native fish, Macquarie perch (Macquaria australasica). Lakes & Reservoirs: Research and Management, 5: 281-291. GUBIANI, É. A., L. C. GOMES, A. A. AGOSTINHO & E. K. OKADA. 2007. Persistence of fish population in upper Paraná river: effects of water regulation by dams. Ecology of Freshwater Fish, 16(2): 191-197. JEFFRIES, M. & D. MILLS. 1994. Freshwater ecology. Principles and applications. Chichester, John Wiley & Sons Ltd., 285p. LEVIN, P. S. & N. TOLIMIERI. 2001. Differences in the impacts of dams on the dynamics of salmon populations. Animal Conservation, 4: 291-299. 9 LOWE-MCCONNEL, R. H. 1999. Estudos ecológicos de comunidades de peixes tropicais. São Paulo, Edusp, 534p. MARENGO, J. A. & L. M. ALVES. 2005. Tendências hidrológicas da bacia do rio Paraíba do Sul. Revista Brasileira de Metereologia, 20(2): 215-226. MCADAM, D. S. O., N. R. LILEY & E. S. P. TAN. 1999. Comparison of reproductive indicators and analysis of the reproductive seasonality of the tinfoil barb, Puntius schwanenfeldii, in the Perak River, Malaysia. Environmental Biology of Fishes, 55: 369-380. MÉRONA, B., R. VIGOUROUX & F. L. TEJERINA-GARRO. 2005. Alteration of fish diversity downstream from Petit-Saut Dam in French Guiana: implication of ecological strategies of fish species. Hydrobiologia, 551: 33-47. OLDANI, N. O., C. R. M. BAIGÚN, J. M. NESTLER & R. A. GOODWIN. 2007. Is fish passage technology saving fish resources in the lower La Plata River basin? Neotropical Ichthyology, 5 (2): 89-102. PETTS, G.E. Regulation of Large Rivers: Problems and Possibilities for Environmentally - sound River Development in South America. Interciência, 15, 6, 388-395, 1990. PENCZAK, T., L. GŁOWACKI, W. GALICKA, & H. KOSZALÍNSKI. 1998. A long term study (1985-1995) of fish populations in the impounded Warta River. Hydrobiologia. 368: 157-173. PIELLOU, E. C. 1966. The measurement of diversity in different types of biological collections. Journal of Theorical Biology, 10:370-383. Journal of Fish Biology, 53 (Supplement A): 198–208. PINTO, B. C. T., F. G. ARAÚJO & R. M. HUGHES. 2006a. Effects of landscape and riparian condition on a fish index of biotic integrity in a large southeastern Brazil river. Hydrobiologia, 556: 69-83. PINTO, B. C. T., M. G. PEIXOTO & F. G. ARAÚJO. 2006b. Effects of the proximity from an industrial plant on fish assemblages in the rio Paraíba do Sul, southeastern Brazil. Neotropical Ichthyology, 4(2): 269-278. POFF, N.L. & D.D. HART. 2002. How dams vary and why it matters for the emerging science of dam removal. BioScince 52: 659–668. PUTH, L.M. & WILSON, K.A. 2001. Boundaries and corridors as a continuum of ecological flow control: lessons from rivers and streams. Conserv. Biol. 15:21–30 REIS, R. E., S. O. KULLANDER, C. J. FERRARIS JR. (ORGS.). 2003. Check list of the freshwater fishes of South and Central America. Porto Alegre, EDIPUCRS, 742p. STANFORD, J. A. & J. V. WARD, 2001. Revisiting the serial discontinuity concept. In: SUZUKI H. I. & A. A. AGOSTINHO. 1997. Reprodução de peixes do reservatório de Segredo. Pp. 163-182. In: Agostinho, A. A. & L. C. Gomes (Eds.). Reservatório de Segredo: bases ecológicas para o manejo. Maringá, EDUEM, 387p. TEIXEIRA, T. P., B. C. T. PINTO, B. F. TERRA, E. O. ESTILIANO, D. GRACIA, & F. G. ARAÚJO. 2005. Diversidade das assembleias de peixes nas quatro unidades geográficas do rio Paraíba do Sul. Iheringia Série Zoológica, 95(4): 347-357. TERRA B.F., A.B.I. SANTOS & F.G. ARAÚJO. 2010. Fish assemblage in a dammed tropical river: an analysis along the longitudinal and temporal gradients from river to reservoir. Neotropical Ichthyology 8: 599-606. TER BRAAK, C. J. F. 1986. Canonical correspondence analysis: a new eigenvector technique for multivariate direct gradient analysis. Ecology, 67: 1167-1179. 10 TOWNSEND, C. R., M. BEGON, J. L. HARPER. 2006. Fundamentos em ecologia. Porto Alegre, Artmed, 592p. TUNDISI, J.G. 2003. Água no século XXI: enfrentando a escassez. RIMA, São Carlos. VANNOTE, R. L., G. W. MINSHALL, J. R. SEDELL & C. E. CUSHING, 1980. The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences 37: 130– 137. VAZZOLER, A. E. A. M. 1996. Biologia da reprodução de peixes teleósteos: teoria e prática. Maringá, Eduem, 169p. WARD, J. V. & J. A. STANFORD. 1984. The regulated stream as a testing ground for ecological theory. Pp: 23-38. In: A. Lillehammer & S. Saltviet. (Eds.). Regulated Rivers. Norway, University Oslo Press. WARD, J. V. & J. A. STANFORD. 1987. Ecology of regulated streams: past accomplishments and directions for future research. Pp: 391-409. J.F. Craig and J.B. Kemper. (Eds.). Regulated Streams: advances in ecology. New York, Plenum Press. WARD, J. V. & J. A. STANFORD. 1995a. The serial discontinuity concept: Extending the model to floodplain rivers. Regulated Rivers: Research & Management 10(2-4): 159- 168. WARD, J. V. & J. A. STANFORD. 1995b. Ecological connectivity in alluvial river ecosystems and its disruption by flow regulation. Regulated Rivers: Research & Management 11 (1): 105-119. WARD, J. V. & J. A. STANDFORD. 1983. Serial discontinuity concept of lotic ecosystems. Dynamics systems. Ann Arbor MI, Ann Arbor Science Publishes, 29-42. AGOSTINHO, A. A., GOMES, L. C., VERÍSSIMO S. & EDSON, K. O. 2004. Flood regime, dam regulation and fish in the Upper Paraná River: effects on assemblage attributes, reproduction and recruitment. Rev. Fish Biol. Fisher. 14: 11–19. AGOSTINHO, A. A., MIRANDA, L. E., BINI, L. M., GOMES, L. C., THOMAZ, S. M. & SUZUKI, H. I. 1999. Patterns of colonization in Neotropical reservoirs and prognosis on aging. In: Theoretical Reservoir Ecology and its Applications. J. G. TUNDISI, M. STRASKRABA (Eds.). Backhuys Publishers, Leiden, The Netherlands. pp. 227–265. AGOSTINHO, A. A., GOMES, L. C., SUZUKI, H. I. & JÚLIO JR., H. F. 2003. Migratory fishes of the Upper Paraná river basin, Brazil. In: J. CAROLSFELD, B. HERVEY, C. ROSS, A. BAER (Eds). Migratory fishes of South America: biology, fisheries and conservation status. Ottawa, World Fisheries Trust, International Bank for Reconstruction and Development/ The World Bank, 372p. AGUIAR, K. D. 2008. Influência de uma barragem sobre atributos ecológicos da comunidade e biologia reprodutiva de peixes do rio Paraíba do Sul, UHE Ilha dos Pombos, Rio de Janeiro, Brasil. Msc. Thesis in Ecology and Conservation, PPGECO, Universidade Federal do Paraná, Curitiba, 120p. ARAÚJO, F. G., PINTO, B. C. T. & TEIXEIRA, T. P. 2009. Longitudinal patterns of fish assemblages in a large tropical river in southeastern Brazil: evaluating environmental influences and some concepts in river ecology. Hydrobiologia. 618, 89-107. BENEDITO-CECÍLIO, E. & A. A. AGOSTINHO. 1997. Estrutura das populações de peixes no reservatório de Segredo. In: A. A. Agostinho, L. C. Gomes (Eds.). Reservatório de Segredo: bases ecológicas para o manejo. Maringá, EDUEM. pp. 113-135. 26 BENNEMANN, S. T., CAPRA, L. G., GALVES, W. & SHIBATTA, O. A. 2006. Dinâmica trófica de Plagioscion squamosissimus (Perciformes, Sciaenidae) em trechos de influência da represa Capivara (rios Paranapanema e Tibagi). Iheringia Sér. Zool. 96:115–119. BONETTO A. A. 1963. Investigaciones sobre migragiones de peces en los rios de la cuenca del Plata. Cienc. Invest. 19: 12-26. BRAGA, F. M. S. & ANDRADE, P. M. 2005. Distribuição de peixes na microbacia do Ribeirão Grande, Serra da Mantiqueira Oriental, São Paulo, Brasil. Iheringia Sér. Zool. 95: 121-126. BRANCO, W. C. C., ROCHA, M. I. A., PINTO, F. S. P., GÔMARA, G. A. & FILIPPO, R. 2002. Limnological features of Funil Reservoir (RJ, Brazil) and indicator properties of rotifers and cladocerans of zooplankton community. Lake. Reserv. Manage. 7: 87- 92. CAPELETI, A. R. & PETRERE JR, M. 2006. Migration of the curimbatá Prochilodus lineatus (Valenciennes, 1836) (Pisces, Prochilodontidae) at the waterfall Cachoeira de Emas oh the Mogi-Guaçu river São Paulo, Brazil. Braz. J. Biol. 66: 651-659. CARVALHO, C. E. V. & TORRES, J. P. M. 2002. The ecohydrology of the Paraíba do Sul river, Southeast Brazil. In: The Ecohydrology of South American Rivers and Wetlands. MCCLAIN, M. E. (Ed.). The IAHS Series of Special Publications, Venice Italy. pp. 179–191. CASTRO, R. M. C. & ARCIFA, M. S. 1987. Comunidades de peixes de reservatórios no sul do Brasil. Rev. Bras. Biol. 47: 493–500. CLARKE, K. R. & WARWICK, R. M. 2001. Change in marine communities: an approach to statistical analysis and interpretation. Plymouth, PRIMER-E Ltd, 172p. CLAY, C. H. 1995. Design of fishways and other fish facilities. Boca Raton, FL: Lewis Publishers. COLWELL, R. K. 2006. EstimateS 5: Statistical estimation of species richness and shared species from samples. Version 8.0 Guide and application published at: http://viceroy.eeb.uconn.edu/EstimateS. CUMMING, G. S. 2004. The impact of low-head dams on fish species richness in Wisconsin, USA. Ecol. Appl. 14:1495–1506 DUFRÊNE, M. & LEGENDRE, P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs, 67: 345-366. FREEMAN, M. C., PRINGLE, C. M., GREATHOUSE, E. A. & FREEMAN, B. J. 2003. Ecosystem-level consequences of migratory faunal depletion caused by dams. Am. Fisher. Soc. Symp. 35:255–266. FREITAS, C. E. C. & PETRERE JR, M. 2001. Influence of artificial reefs on fish assemblage of the Barra Bonita Reservoir (São Paulo, Brazil). Lake. Reserv. Manage. 6: 273-278. FUKUSHIMA, M. 2005. The dam-related decline of freshwater fish diversity: analysis of the data collected from Hokkaido during the last half century. Ecol. Soc. Jpn. 55:349–357. GODINHO, A. L.; KYNARD, B. 2009. Migratory fishes of Brazil: life history and fish passage needs. River Res. Applic. 25: 702-712. GODOY, M. P. 1967. Dez anos de observações sobre a periodicidade migratória de peixes do rio Mogi Guassu. Rev. Bras. Biol. 27: 1-12. GOMES, L. C. & MIRANDA, L. E. 2001. Riverine characteristics dictate composition of fish assemblages and limit fisheries in reservoirs of the Upper Paraná River Basin. Regul. Rivers: Res. Mgmt. 17: 67-76. 27 JOY, M. K. & DEATH, R. G. 2001. Control of freshwater fish and crayfish community structure in Taranaki, New Zealand: dams, diadromy or habitat structure? Freshw. Biol. 46:417–429. KUBECKA, J. 1993. Succession of fish communities in reservoirs of Central and Eastern Europe. In: Comparative Reservoir Limnology and Water Quality Management. S. Straskraba, J. G. Tundisi, A. Duncan (Eds). Kluwer Academic: Dordrecht. pp. 153– 168. KULLANDER, S. O. & FERREIRA, E. J. G. 2006. A review of the South American cichlid genus Cichla, with descriptions of nine new species (Teleostei: Cichlidae). Ichthyol. Explor. Freshw. 17:289–398. LARINIER, M. & MURMULLA, G. 2003. Fish passes: types, principles and geographical distribution: an overview. Second International Symposium on the Management of Large Rivers for Fisheries Sustaining Livelihoods and Biodiversity in the New Millennium. Phnom Penh, Cambodia. pp. 183-205 MARTINEZ, P. J., CHART, T. E. & TRAMMEL, M. A. 1994. Fish species com- position before and after construction of a main stem reservoir on the White River, Colorado. Environ. Biol. Fishes 40:227–239. MATTHEWS W. J. & MARSH-MATTHEWS, E. 2007. Extirpation of read shiner in direct tributaries of Lake Texoma (Oklahoma-Texas): a cautionary case history from a fragmented river-reservoir system. Transaction of the American Fisheries Society; Bethesda Maryland 136: 1041–1062. MATTHEWS, W. J. 1998. Patterns in Freshwater Fish Ecology. Chapman and Hall and Thomson Publishing: New York. p. 627. MCCUNE, B. & MEFFORD, M. J. 1997. Multivariate Analysis of Ecological Data. Version 3.11. Gleneden Beach: MjM Software. OLIVEIRA, E. F., GOULART, E. & MINTE-VERA, C. V. 2004. Fish diversity along spatial gradients in the Itaipu Reservoir, Paraná, Brazil. Braz. J. Biol. 64: 447-458. OLIVEIRA, E. F., GOULART, E. & MINTE-VERA, C. V. 2003. Patterns of dominance and rarity of fish assemblage along spatial gradients in the Itaipu reservoir, Paraná, Brazil. Acta Sci. Biolog. Sci. 25: 71–78. PARK, Y. S., CHANG, J., LEK, S., CAO, W. & BROSSE, S.; 2003. Conservation strategies for endemic fish species threatened by the Three Gorges Dam. Conserv. Biol. 17:1748– 1758 PELICICE, F. M. & AGOSTINHO, A. A. 2008. Fish-Passage Facilities as Ecological Traps in Large Neotropical Rivers. Conservation Biology. 22: 180-188. PINTO, B. C. T. & ARAÚJO, F. G. 2002. Assessing of Biotic Integrity of the Fish Community in a Heavily Impacted Segment of a Tropical River in Brazil. Braz. Arch. Biol. Tech. 50: 489-502. PODDUBNY, A. G. & GALAT, D. L. 1995. Habitat associations of upper Volga River fishes: effects of reservoirs. Regul. River. Res. Manage. 11: 67–84. POFF, N. L., ALLAN, J. D., BAIN, N. B., KARR, J. R., PRESTEGAARD, K. L., RICHTER, B. D., SPARKS, R. E. & STROMBERG, J. C. 1997. The natural flow regime. BioSci. 47: 769– 784. POFF, N. L. & HART, D. D. 2002. How dams vary and why it matters for the emerging science of dam removal. BioSci. 52: 659–668. POMPEU, P. S. & MARTINEZ, C. B. 2007. Efficiency and selectivity of a trap and truck fish passage system in Brazil. Neotr. Ichth. 5: 169-176. 28 PORTO, L. M., MCLAUGHLIN, R. L. & NOAKEA, D. L. 1999. Low-head barrier dams restrict the movements of fishes in two Lake Ontario streams. N. Am. J. Fish. Manage. 19:1028–1036. SANTOS, A. B. I., CAMILO, F. L., ALBIERI, R. J. & ARAÚJO, F. G. 2011. Morphological patterns of five fish species (four characiforms, one perciform) in relation to feeding habits in a tropical reservoir in south-eastern Brazil. J. Appl. Ichthyol. 2011:1–5. SANTOS, A.B.I, TERRA, B.F. & ARAUJO, F. G. 2010. Influence of the river flow on the structure of fish assemblage along the longitudinal gradient from river to reservoir. Zoologia v. 27, p. 732-740. SANTOS, H. A., POMPEU, P. S., VICENTINI, G. S. & MARTINEZ, C. B. 2008. Swimming performance of the freshwater Neotropical fish: Pimelodus maculatus Lacepède, 1803. Braz. J. Biol. 68: 433–439. SMITH, W. S., PEREIRA, C. C. G. F., ESPÍNDOLA, E. L. G. & ROCHA, O. 2003. A importância da zona litoral para a disponibilidade de recursos alimentares à comunidade de peixes. In: Ecótonos nas interfaces dos ecossistemas aquáticos. R. Henry (Ed.). São Carlos, RIMA. p. 360. TEIXEIRA, T. P., PINTO, B. C. T., TERRA, B. F., ESTILIANO, E. O., GRACIA, D. & ARAÚJO, F. G. 2005. Diversidade das assembleias de peixes nas quatro unidades geográficas do rio Paraíba do Sul. Iheringia Sér. Zool. 95: 347–357. TERRA, B. F., SANTOS, A. B. I. & ARAÚJO, F. G. 2010. Fish assemblage in a dammed tropical river: an analysis along the longitudinal and temporal gradients from river to reservoir. Neotr. Ichth. 8: 599-606. VAZZOLER, A. E. A. M., LIZAMA, M. A. P. & INADA, P. 1997. Influências ambientais sobre a sazonalidade reprodutiva. In: A Planície de Inundação do Alto Rio Paraná. A. E. A. M. VAZZOLER, A. A. AGOSTINHO, N. S. HAHN (Eds.).Maringá, EDUEM. p. 460. VEHANEN, T., JURVELIUS, J. & LAHTI, M. 2005. Habitat utilization by fish community in a short-term regulated river reservoir. Hydrobiology. 545: 257–270. WILLIAMS, J. D., WINEMILLER, K. O., TAPHORN, D. C. & BALBAS, L. 1998. Ecology and status of piscivorous in Guri, an oligotrophic tropical reservoir. N. Am. J. Fisher. Manage. 18: 274–285. ABRAHAMS, M. & KATTENFELD, M. 1997 The role of turbidity as a constraint on predator-prey interactions in aquatic environments. Behaviour Ecology and Sociobiology 40, 169–174. AGOSTINHO AA, THOMAZ SM, GOMES, LC. 2005 Conservation of the biodiversity of Brazil’s inland waters. Conserv Biol 19: 646–652. doi: 10.1111/j.1523- 1739.2005.00701.x 38 ANGERMEIER PL, KARR JR (1983) Fish communities among environmental gradients in a system of tropical streams. Environ Biol Fish 9: 117–135. doi: 10.1007/BF00690857. ARAÚJO FG, ANDRADE CC, SANTOS RN, SANTOS AFGN, SANTOS LN (2005) Spatial and seasonal changes in the diet of Oligosarcus hepsetus (Characiformes, Characidae) in a Brazilian reservoir. Rev Bras Biol 65: 1–8. doi: 10.1590/S1519- 69842007000400022. ARAÚJO NB, TEJERINA-GARRO FL (2009) Influence of environmental variables and anthropogenic pertubations on stream fish assembleges, Upper Paraná River, Central Brasil. Neotrop Ichthyol 7: 31–38. doi: 10.1590/S1679- 62252009000100005. BAYLEY PB, PETRERE JRM (1989) Amazon fisheries: Assessment methods, current status and management options. Canadian Special Publ Fish Aquat Sci 106: 385–398. BENNEMANN ST, CAPRA LG, GALVES W, SHIBATTA OA (2006) Dinâmica trófica de Plagioscion squamosissimus (Perciformes, Sciaenidae) em trechos de influência da represa Capivara (rios Paranapanema e Tibagi). Ihering Sér Zool 96: 115–119. doi: 10.1590/S0073-47212006000100020. BENKE AC (1990). A perspective on America’s vanishing streams. Journal of the North American Benthological Society 9: 77–88. BRANCO CWC, ROCHA MIA, PINTO GFS, GÔMARA GA, FILIPPO RD (2002) Limnological features of Funil Reservoir (R.J., Brazil) and indicator properties of rotifers and cladocerans of the zooplankton community. Lake Reservoir Res Manage 7: 87–92. doi: 10.1046/j.1440-169X.2002.00177.x. CANDOLIN U, SALESTO T, EVERS M (2007): Changed environmental conditions weaken sexual selection in sticklebacks. J Evol Biol 20: 233-239. CARVALHO CEV, TORRES JPM (2002) The ecohydrology of the Paraíba do Sul river, Southeast Brazil. In McClain ME (ed.), The ecohydrology of South American Rivers and Wetlands. The IAHS Series of Special Publications, Italy, pp. 179–191. CHAGAS RJ, BOCCARDO L (2006) The air-breathing cycle of Hoplosternum littorale (Hancock, 1828) (Siluriformes: Callichthyidae). Neotrop Ichthyol 4: 371-373. doi: 10.1590/S1679-62252006000300009. CLARKE KR, WARWICK RM (1994) Change in Marine Communities: An Approach to Statistical Analysis and Interpretation. Plymouth Marine Laboratories: Plymouth. COLWELL RK (2005) EstimateS 5: Statistical estimation of species richness and shared species from samples, Version 7.5. http://viceroy.eeb.uconn.edu/EstimateS. FELLEY JD, FELLEY SM (1987) Relationships between habitat selection by individuals of a species and patterns of habitat segregation among species: fishes of the Calcasieu drainage. In Matthews WJ, Heins DC (eds.). Community and evolutionary ecology of North American stream fishes. Oklahoma Univ. Press, Norman, Oklahoma p.6168. GEHRKE PC, GILLIGAN DM, BARWICK M (2002) Changes in fish communities of the Shoalhaven River 20 years after construction of Tallowa Dam, Australia. River Res Appl 18: 265–286. doi: 10.1002/rra.669. GOMIERO LM, BRAGA FMS (2004) Feeding of introduced species of Cichla (Perciformes, Cichlidae) in Volta Grande Reservoir, River Grande (MG/SP). Braz J Biol 64: 787– 795. doi: 10.1590/S1519-69842004000500008 39 GORMAN OT, KARR JR (1978) Habitat structure and stream fish communities. Ecology 59: 507-515. doi: 10.2307/1936581 GROSSMAN, GD, RATAJCZAK JR RE, CRAWFORD M, FREEMAN MC (1998). Assemblage organization in stream fishes: effects of environmental variation and interspecific interactions. Ecological Monographs, 68 (3): 395-420. GUARINO AWS, BRANCO CWC, DINIZ GP, ROCHA R (2005) Limnological characteristics of an old tropical reservoir (Ribeirão das Lajes Reservoir, RJ, Brazil). Acta Limnol Bras 17: 129–141. HOEINGHAUS DJ, AGOSTINHO AA, GOMES LC, PELICICE FM, OKADA EK, LATINI JD, KASHIWAQUI EA, WINEMILLER KO (2009) Effects of river impoundment on ecosystem services of large tropical rivers: embodied energy and market value of artisanal fisheries. Conserv Biol 23: 1222–1231. doi: 10.1111/j.1523- 1739.2009.01248.x HOLMQUIST JG, SCHMIDT-GENGENBACH JM, YOSHIOKA BB (1998) High dams and marine-freshwater linkage: effects on native and introduced fauna in the Caribbean. Conserv Biol 12: 621–630. doi: 10.1111/j.1523-1739.1998.96427.x. HUSTON MA (1994) Biological diversity: the coexistence of species on changing landscapes. Cambridge University Press: Cambridge. LATINI AO, PETRERE JRM (2004) Reduction of a native fish fauna by alien species: an example from Brazilian freshwater tropical lakes. Fish Manage Ecol 11: 71–79. doi: 10.1046/j.1365-2400.2003.00372.x LOWE-MCCONNELL RH (1987) Ecological Studies in Tropical Fish Communities. Cambridge University Press: Cambridge. MATTHEWS WJ (1998) Patterns in Freshwater Fish Ecology. Chapman and Hall: New York. MCCARTNEY M (2009) Living with dams: managing the environmental impacts. Water Policy 11: 121–139. doi: 10.2166/wp MCCUNE B, MEFFORD MJ (1997) Multivariate Analysis of Ecological Data. Version 3.11. MjM Software: Gleneden Beach, Oregon, USA. NILSSON C, BERGGREN K (2000). Alterations of riparian ecosystems caused by river regulation. BioScience 50: 783–792. http://dx.doi.org/10.1641/0006- 3568(2000)050[0783:AORECB]2.0.CO;2 NORTHCOTE TG. (1998) Migratory behavior of fish and its significance to movement through riverine fish passage facilities. In: Fish migration and fish bypasses, Jungwirth MS, Schmutz, Weiss S (eds). Fish News Books, Oxford and London, pp. 3–18. OGBEIBU AE, ORIBHABOR BJ (2002) Ecological impact of river impoundment using benthic macro-invertebrates as indicators. Water Res 36: 2427–2436. doi: 10.1016/S0043-1354(01)00489-4, OLIVEIRA EF, GOULART E, MINTE-VERA CV (2004) Fish diversity along spatial gradients in the Itaipu Reservoir, Paraná, Brazil. Braz J Biol 64: 447–458. doi: 10.1590/S1519- 69842004000300008. PELICICE FM, AGOSTINHO AA (2009) Fish fauna destruction after the introduction of a non-native predator (Cichla kelberi) in a Neotropical reservoir. Biol Invasions 11: 1789–1801. DOI: 10.1007/s10530-008-9358-3. 40 PERETTI D, ANDRIAN IF (2004) Trophic Structure of Fish Assemblages in Five Permanent Lagoons of the High Paraná River Floodplain, Brazil. Environ Biol Fish 71: 95–103. doi: 10.1023/b:ebfi.0000043155.76741.a1 POFF NL, ALLAN JD, BAIN MB, KARR JR, PRESTEGAARD KL, RICHTER BD, SPARKS RE, STROMBERG JC (1997) The natural flow regime. BioScience 47: 769–784. PRINGLE CM, FREEMAN MC, FREEMAN BJ (2000) Regional effects of hydrologic alterations on riverine macrobiota in the New World: tropical–temperate comparisons. BioScience 50: 807–823. PUSEY BJ, ARTHINGTON AH, READ MG (1995) Species richness and spatial variation in fish assemblage structure in two rivers of the wet tropics of northern Queensland, Australia. Environ Biol Fish 42: 181–199. ROSCOE DW, HINCH SG (2010) Effectiveness monitoring of fish passage facilities: historical trends, geographic patterns and future directions. Fish Fish 11: 12–33. doi: 10.1111/j.1467-2979.2009.00333.x. ROSENZWEIG ML (1995) Species diversity in space and time. Cambridge University Press: Cambridge. SANTOS ABI, TERRA BF, ARAÚJO FG (2010) Fish assemblage in a dammed tropical river an analysis along the longitudinal and temporal gradients from river to reservoir. Zoologia 27: 732–740. doi: 10.1590/S1679-62252010000300004. SCHLOSSER IJ (1982) Fish community structure and function along two habitat gradients in headwater stream. Ecol Monog 52: 395–414. doi: 10.2307/2937352. SMITH WS, PETRERE JRM, BARRELA W (2009) The fish community of the Sorocaba River Basin in different habitats (State of São Paulo, Brazil). Braz J Biol 69: 1015-1025. doi: 10.1590/S1519-69842009000500005. SOARES MCS, MARINHO MM, HUSZAR VLM, BRANCO CWC, AZEVEDO SMFO (2008) The effects of water retention time and watershed features on the limnology of two tropical reservoirs in Brazil. Lake Reserv 13: 257–269. doi: 10.1111/j.1440- 1770.2008.00379.x. TAYLOR CA, KNOUFT JH, HILAND TM (2001) Consequences of stream impoundment on fish communities in a small North American Drainage. Reg River Res Manage 17: 687–698. doi: 10.1002/rrr.629. ter BRAAK CJF, ŠMILAUER P (2002) CANOCO reference manual and CanoDraw for Windows user’s guide: software for canonical community ordination (version 4.5). Microcomputer Power: Ithaca, NY, USA. TERRA BF, SANTOS ABI, ARAÚJO FG (2010) Fish assemblage in a dammed tropical river: an analysis along the longitudinal and temporal gradients from river to reservoir. Neotrop Ichthyol 8: 599–606. doi: 10.1590/S1679-62252010000300004. UTNE-PALM AC (2002) Visual feeding of fish in a turbid environment: physical and behavioural aspects. Mar Fresh Behav Phys 35: 111–128. doi: 10.1080/10236240290025644. VAZZOLER AEAM, LIZAMA MAP, INADA P (1997) Influências ambientais sobre a sazonalidade reprodutiva. In A Planície de Inundação do Alto Rio Paraná, Vazzoler AEAM, Agostinho AA, Hahn NS (eds). EDUEM, Maringá, pp. 1–460. WINEMILLER KO, JEPSEN DB (1998) Effects of seasonality and fish movement on tropical river food webs. J Fish Biol 53: 267–296. doi: 10.1111/j.1095- 8649.1998.tb01032.x. AGOSTINHO AA, THOMAZ SM & GOMES, LC. 2005. Conservation of the biodiversity of Brazil’s inland waters. Conservation Biology 19: 646–652. DOI: 10.1111/j.1523- 1739.2005.00701.x ANGERMEIER PL & KARR JR. 1983. Fish communities among environmental gradients in a system of tropical streams. Environmental Biology of Fishes 9: 117–135. DOI: 10.1007/BF00690857. ARAÚJO FG, ANDRADE CC, SANTOS RN, SANTOS AFGN & SANTOS LN. 2005. Spatial and seasonal changes in the diet of Oligosarcus hepsetus (Characiformes, Characidae) in a Brazilian reservoir. Revista Brasileira de Biologia 65: 1–8. DOI: 10.1590/S1519-69842007000400022. BARLETTA MA, JAUREGUIZAR J, BAIGUN C, FONTOURA NF, AGOSTINHO AA, ALMEIDAVAL VMF, VAL AL, TORRES RA, JIMENES-SEGURA LF, GIARRIZZO T, FABRÉ NN, BATISTA VS, LASSO C, TAPHORN DC, COSTA F, CHAVES PT, VIEIRA JP & CORRÊA MFM. 2010. Fish and aquatic habitat conservation in South America: a continental overview with emphasis on Neotropical systems. Journal of Fish Biology 76: 2118– 2176. DOI: 10.1111/j.1095-8649.2010.02684.x. BAYLEY PB & PETRERE JRM. 1989. Amazon fisheries: Assessment methods, current status and management options. Canadian Special Publication of Fisheries and Aquatic Sciences 106: 385–398. BENNEMANN ST, CAPRA LG, GALVES W & SHIBATTA OA. 2006. Dinâmica trófica de Plagioscion squamosissimus (Perciformes, Sciaenidae) em trechos de influência da represa Capivara (rios Paranapanema e Tibagi). Iheringia Série Zoologia 96: 115– 119. BOTELHO MLLA, GOMIERO LM & BRAGA FMS. 2007. Feeding of Oligosarcus hepsetus (Cuvier, 1829) (Characiformes) in the Serra do Mar State Park – Santa Virgínia Unit, São Paulo, Brazil. Brazilian Journal of Biology 67: 741–748. DOI: 10.1590/S1519- 69842007000400022. BRANCO CWC, ROCHA MIA, PINTO GFS, GÔMARA GA & FILIPPO RD. 2002. Limnological features of Funil Reservoir (R.J., Brazil) and indicator properties of rotifers and cladocerans of the zooplankton community. Lakes & Reservoirs: Research and Management 7: 87–92. DOI: 10.1046/j.1440-169X.2002.00177.x. CAPRA LG & BENNEMANN ST. 2009. Low feeding overlap between Plagioscion squamosissimus (Heckel, 1840) and Cichla monoculus (Spix & Agassiz, 1831), fishes introduced in tropical reservoir of South Brazil. Acta Limnologica Brasiliensia 21: 343–348. 53 CHAGAS RJ & BOCCARDO L. 2006. The air-breathing cycle of Hoplosternum littorale (Hancock, 1828) (Siluriformes: Callichthyidae). Neotropical Ichthyology 4: 371-373. DOI: 10.1590/S1679-62252006000300009. CLARKE KR & WARWICK RM. 1994. Change in Marine Communities: An Approach to Statistical Analysis and Interpretation. Plymouth Marine Laboratories: Plymouth. COLWELL RK. 2005. EstimateS 5: Statistical estimation of species richness and shared species from samples, Version 7.5. http://viceroy.eeb.uconn.edu/EstimateS. DIAS ACML, BRANCO CWC & LOPES VG. 2005: Estudo da dieta natural de peixes no reservatório de Ribeirão das Lajes, Rio de Janeiro, Brasil. Acta Scientiarum Biological Sciences 27: 355–364. DUFRÊNE M & LEGENDRE P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs 67: 345–366. DOI: 10.2307/2963459. FELLEY JD & FELLEY SM. 1987. Relationships between habitat selection by individuals of a species and patterns of habitat segregation among species: fishes of the Calcasieu drainage. In W. J. Matthews and D. C. Heins (eds.). Community and evolutionary ecology of North American stream fishes. p. 6168. Oklahoma Univ. Press, Norman, Oklahoma. FUKUSHIMA M, KAMEYAMA S, KANEKO M, NAKAO K & STEEL EA. 2007. Modeling the effects of dams on freshwater fish distributions in Hokkaido, Japan. Freshwater Biology 52: 1511–1524. DOI: 10.1111/j.1365-2427.2007.01783.x. GEHRKE PC, GILLIGAN DM & BARWICK M. 2002. Changes in fish communities of the Shoalhaven River 20 years after construction of Tallowa Dam, Australia. River Research and Applications 18: 265–286. DOI: 10.1002/rra.669. GIDO KB & MATTHEWS WJ. 2000. Dynamics of the offshore fish assemblage in a southwestern reservoir (Lake Texoma, Oklahoma-Texas). Copeia 2000: 917–930. GOGOLA TM, DAGA VS, SILVA PRL, SANCHES PV, GUBIANI EA, BAUMGARTNER G & DELARIVA RL. 2010. Spatial and temporal distribution patterns of ichthyoplankton in a region affected by water regulation by dams. Neotropical Ichthyology 8: 341– 349. DOI: 10.1590/S1679-62252010000200013. GOMES LC & MIRANDA LE. 2001. Riverine characteristics dictate composition of fish assemblages and limit fisheries in reservoirs of the Upper Paraná River Basin. Regulated Rivers: Research and Management 17: 67–76. GOMIERO LM & BRAGA FMS. 2004. Feeding of introduced species of Cichla (Perciformes, Cichlidae) in Volta Grande Reservoir, River Grande (MG/SP). Brazilian Journal of Biology 64: 787–795. DOI: 10.1590/S1519- 69842004000500008 GORMAN OT & KARR JR. 1978. Habitat structure and stream fish communities. Ecology 59:507-515. GUARINO AWS, BRANCO CWC, DINIZ GP & ROCHA R. 2005. Limnological characteristics of an old tropical reservoir (Ribeirão das Lajes Reservoir, RJ, Brazil). Acta Limnologica Brasiliensia 17: 129–141. HOLMQUIST JG, SCHMIDT-GENGENBACH JM & YOSHIOKA BB. 1998. High dams and marine-freshwater linkage: effects on native and introduced fauna in the Caribbean. Conservation Biology 12: 621–630. DOI: 10.1111/j.1523- 1739.1998.96427.x. 54 HUSTON MA. 1994. Biological diversity: the coexistence of species on changing landscapes. Cambridge University Press: Cambridge. JACKSON DA, PERES-NETO PR & OLDEN JD. 2001. What controls who is where in freshwater fish communities – the roles of biotic, abiotic, and spatial factors. Canadian Journal of Fisheries and Aquatic Sciences 58: 157–170. JOY MK & DEATH RG. 2001. Control of freshwater fish and crayfish community structure in Taranaki, New Zealand: dams, diadromy or habitat structure? Freshwater Biology 46: 417–429. DOI: 10.1046/j.1365-2427.2001.00681.x. JUNK WJ, BAYLEY PF & SPARKS RE. 1989. The flood pulse concept in river-floodplain systems. Canadian Special Publication of Fisheries and Aquatic Sciences 106: 110– 27. LATINI AO & PETRERE JRM. 2004. Reduction of a native fish fauna by alien species: an example from Brazilian freshwater tropical lakes. Fisheries Management and Ecology 11: 71–79. DOI: 10.1046/j.1365-2400.2003.00372.x LOWE-MCCONNELL RH 1987. Ecological Studies in Tropical Fish Communities. Cambridge University Press: Cambridge. MCCARTNEY M. 2009. Living with dams: managing the environmental impacts. Water Policy 11: 121–139. MCCUNE B & MEFFORD MJ. 1997. Multivariate Analysis of Ecological Data. Version 3.11. MjM Software: Gleneden Beach, Oregon, USA. MEHNER T, DIEKMANN M, BRÄMICK U & LEMCKE R. 2005. Composition of fish communities in German lakes as related to lake morphology, trophic state, shore structure and human-use intensity. Freshwater Biology 50:70–85. DOI: 10.1111/j.1365-2427.2004.01294.x. NORTHCOTE TG. 1998. Migratory behavior of fish and its significance to movement through riverine fish passage facilities. In: Fish migration and fish bypasses, Jungwirth MS, Schmutz, Weiss S (eds). Fish News Books: Oxford and London; 3–18. OGBEIBU AE & ORIBHABOR BJ. 2002. Ecological impact of river impoundment using benthic macro-invertebrates as indicators. Water Research 36: 2427–2436. OLIVEIRA EF, GOULART E & MINTE-VERA CV. 2004. Fish diversity along spatial gradients in the Itaipu Reservoir, Paraná, Brazil. Brazilian Journal of Biology 64: 447–458. DOI: 10.1590/S1519-69842004000300008. OLIVEIRA EF, MINTE-VERA CV & GOULART E. 2005. Structure of fish assemblages along spatial gradients in a deep subtropical reservoir (Itaipu Reservoir, Brazil- Paraguay border). Environmental Biology of Fish 72: 283–304. DOI: 10.1007/s10641-004-2582-5. PELICICE FM & AGOSTINHO AA. 2009. Fish fauna destruction after the introduction of a non-native predator (Cichla kelberi) in a Neotropical reservoir. Biological Invasions 11: 1789–1801. DOI: 10.1007/s10530-008-9358-3. POFF NL, ALLAN JD, BAIN MB, KARR JR, PRESTEGAARD KL, RICHTER BD, SPARKS RE & STROMBERG JC. 1997. The natural flow regime. BioScience 47: 769–784. POLIS GA, HOLT RD, MENGE BA & WINEMILLER KO. 1996. Temporal and spatial components of food webs. In Food Webs: Integration of Patterns and Dynamics, POLIS GA & WINEMILLER KO (EDS). Chapman & Hall: New York; 435–460. PRINGLE CM, FREEMAN MC & FREEMAN BJ. 2000. Regional effects of hydrologic alterations on riverine macrobiota in the New World: tropical–temperate comparisons. BioScience 50: 807–823. 55 PUSEY B J, ARTHINGTON AH & READ MG. 1995. Species richness and spatial variation in fish assemblage structure in two rivers of the wet tropics of northern Queensland, Australia. Envir. Biol. Fishes 42: 181–199. RAHEL FJ. 2002. Homogenization of freshwater faunas. Annual Review of Ecology and Systematics 33: 291–315. ROSCOE DW & HINCH SG. 2010. Effectiveness monitoring of fish passage facilities: historical trends, geographic patterns and future directions. Fish and Fisheries 11: 12–33. DOI: 10.1111/j.1467-2979.2009.00333.x. ROSENZWEIG ML. 1995. Species diversity in space and time. Cambridge University Press: Cambridge. SANTOS ABI, TERRA BF & ARAÚJO FG. 2010. Fish assemblage in a dammed tropical river an analysis along the longitudinal and temporal gradients from river to reservoir. Zoologia 27: 732–740. DOI: 10.1590/S1679-62252010000300004. SANTOS AFGN, SANTOS LN & ARAÚJO FG. 2011: Digestive tract morphology of the Neotropical piscivorous fish Cichla kelberi (Perciformes: Cichlidae) introduced into an oligotrophic Brazilian reservoir. Revista de Biologia Tropical 59: 1245–1255. SCARABOTTI PA, LÓPEZ JA & POUILLY M. 2011. Flood pulse and the dynamics of fish assemblage structure from neotropical floodplain lakes. Ecology of freshwater fish 20: 605-618. DOI: 10.1111/j.1600-0633.2011.00510.x. SCHLOSSER IJ. 1982. Fish community structure and function along two habitat gradients in headwater stream. Ecological Monographs 52: 395–414. DOI: 10.2307/2937352. SMITH WS, PETRERE JRM & BARRELA W. 2003. The fish community of the Sorocaba River Basin in different habitats (State of São Paulo, Brazil). Brazilian Journal of Biology 69: 1015-1025. SOARES MCS, MARINHO MM, HUSZAR VLM, BRANCO CWC & AZEVEDO SMFO. 2008. The effects of water retention time and watershed features on the limnology of two tropical reservoirs in Brazil. Lakes and Reservoirs 13: 257–269. DOI: 10.1111/j.1440-1770.2008.00379.x. STEFANI PMA & ROCHA OB. 2009. Diet composition of Plagioscion squamosissimus (Heckel, 1840), a fish introduced into the Tietê River system. Brazilian Journal of Biology 69: 805–812. DOI: 10.1590/S1519-69842009000400007. TAYLOR CA, KNOUFT JH & HILAND TM. 2001. Consequences of stream impoundment on fish communities in a small North American Drainage. Regulated Rivers: Research and Management 17: 687–698. DOI: 10.1002/rrr.629. TER BRAAK CJF & ŠMILAUER P. 2002. CANOCO reference manual and CanoDraw for Windows user’s guide: software for canonical community ordination (version 4.5). Microcomputer Power: Ithaca, NY, USA. TERRA BF, SANTOS ABI & ARAÚJO FG. 2010. Fish assemblage in a dammed tropical river: an analysis along the longitudinal and temporal gradients from river to reservoir. Neotropical Ichthyology 8: 599–606. DOI: 10.1590/S1679- 62252010000300004. UTNE-PALM AC. 2002. Visual feeding of fish in a turbid environment: physical and behavioral aspects. Marine and Freshwater Behavior and Physiology 35: 111–128. DOI: 10.1080/10236240290025644. 56 VANNOTE RL, MINSHALL GW, CUMMINS KW, SEDELL JR & CUSHING CE. 1980. The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences 37: 130–137. WINEMILLER KO & JEPSEN DB. 1998. Effects of seasonality and fish movement on tropical river food webs. Journal of Fish Biology 53: 267–296. DOI: 10.1111/j.1095- 8649.1998.tb01032.x. AGOSTINHO AA, MIRANDA LE, BINI LM, GOMES LC, THOMAZ SM & SUZUKI HI. 1999. Patterns of colonization in Neotropical reservoirs and prognosis on aging. In Theoretical Reservoir Ecology and its Applications. TUNDISI JG & STRASKRABA M (Eds.). Backhuys Publishers: Leiden, The Netherlands; 227–265. AGOSTINHO AA, GOMES LC & PELICICE FM. 2007a. Ecologia e manejo de recursos pesqueiros em reservatórios do Brasil. EDUEM: Maringá; 501p. AGOSTINHO CS, PEREIRA CR, OLIVEIRA RJD, FREITAS IS & MARQUES EE. 2007b. Movements through a fish ladder: temporal patterns and motivations to move upstream. Neotropical Ichthyology 5: 161-167. AGOSTINHO AA, GOMES LC, VERI S & OKADA EK. 2005. Flood regime, dam regulation and fish in the Upper Parana River: effects on assemblage attributes, reproduction and recruitment. Reviews in Fish Biology and Fisheries 14: 11-19. DOI: 10.1007/s11160-004-3551-y AGOSTINHO, AA, GOMES LC, SUZUKI HI & JÚLIO JR. HF. 2003. Migratory fishes of the Upper Paraná river basin, Brazil. In Carolsfeld J, Hervey B, Ross C, Baer A (eds), Migratory fishes of South America: biology, fisheries and conservation status. World Fisheries Trust, International Bank for Reconstruction and Development/ The World Bank, Ottawa; 372p. AGUIAR KD. 2008. Influência de uma barragem sobre atributos ecológicos da comunidade e biologia reprodutiva de peixes do rio Paraíba do Sul, UHE Ilha dos Pombos, Rio de Janeiro, Brasil. Msc. Thesis in Ecology and Conservation, PPGECO, Universidade Federal do Paraná, Curitiba; 120p. ANDERSON MJ. 2001. A new method for non-parametric multivariate analysis of variance. Austral Ecology 26: 32–46. ARAÚJO FG, PINTO BCT & TEIXEIRA TP. 2009. Longitudinal patterns of fish assemblages in a large tropical river in southeastern Brazil: evaluating environmental influences and some concepts in river ecology. Hydrobiologia 618: 89-107. DOI: 10.1007/s10750-008-9551-5 BARBIERE EB & KRONEMBERGER DMP. 1994. Climatologia do litoral sul-sudeste do estado do Rio de Janeiro. Caderno Geociências 12: 57–73. 73 BENEDITO-CECÍLIO E & AGOSTINHO AA. 1997. Estrutura das populações de peixes no reservatório de Segredo. In Agostinho AA, Gomes LC. (eds.), Reservatório de Segredo: bases ecológicas para o manejo. EDUEM, Maringá, pp. 113-135. BIZERRIL CRSF & PRIMO PBS. 2001. Peixes de águas interiores do Estado do Rio de Janeiro. Série SEMADS 5. Projeto Planágua-SEMADS/GTZ de cooperação técnica Alemanha-Brasil. FEMAR-SEMADS, Rio de Janeiro. BOTELHO MLLA, GOMIERO LM & BRAGA FMS. 2007. Feeding of Oligosarcus hepsetus (Cuvier, 1829) (Characiformes) in the Serra do Mar State Park - Santa Virgínia Unit, São Paulo, Brazil. Brazilian Journal of Biology 67: 741-748. DOI: 10.1590/S1519- 69842007000400022 BRANCO WCC, ROCHA MIA, PINTO FSP, GÔMARA GA & FILIPPO R. 2002. Limnological features of Funil Reservoir (RJ, Brazil) and indicator properties of rotifers and cladocerans of zooplankton community. Lake and Reservoir Management 7: 87-92. DOI: 10.1046/j.1440-169X.2002.00177.x CARAMASCHI EP, ARANHA JMR, THIAGO HS, MORAES JR DF, HALBOTH DA, GOMES JHC, VIANNA M, MENEZES MS & FRANCISCHINI D. 1991. Levantamento da ictiofauna do rio Paraíba do Sul e ciclo reprodutivo das principais espécies, no trecho compreendido entre Três Rios e Campos. Vol II. Aspectos reprodutivos da ictiofauna. Furnas Centrais Elétricas S. A., Rio de Janeiro 190p. CARVALHO CEV & TORRES JPM. 2002. The ecohydrology of the Paraíba do Sul river, Southeast Brazil. In MCCLAIN ME (ed.), The ecohydrology of South American Rivers and Wetlands. The IAHS Series of Special Publications. Venice, Italy, pp. 179–191. CLAY CH. 1995. Design of fishways and other fish facilities. Lewis Publishers, Boca Raton, FL, 248 p. COLWELL RK. 2006. EstimateS 5: Statistical estimation of species richness and shared species from samples. Version 8.0 Guide and application published at: http://viceroy.eeb.uconn.edu/EstimateS. ESPÍNOLA LA, MINTE-VERA CV, & JÚLIO HF. 2010. Invasibility of reservoirs in the Paraná Basin, Brazil, to Cichla kelberi Kullander and Ferreira, 2006. Biological Invasions, 12: 1873-1888. FREEMAN MC, PRINGLE CM, GREATHOUSE EA & FREEMAN BJ. 2003. Ecosystem-level consequences of migratory faunal depletion caused by dams. American Fisheries Society Symposium 35: 255–266 FUKUSHIMA M. 2005. The dam-related decline of freshwater fish diversity: analysis of the data collected from Hokkaido during the last half century. Ecological Society of Japan 55: 349–357. GODINHO AL & KYNARD B. 2009. Migratory fishes of Brazil: life history and fish passage needs. River Research and Applications 25: 702-712. DOI: 10.1002/rra.1180 GOMIERO, LM, SOUZA UP & BRAGA FMS. 2007. Reproduction and feeding of Rhamdia quelen (Quoy & Gaimard, 1824) in rivers of the Santa Virgínia Unit, State Park of the Serra do Mar, São Paulo, SP. Biota Neotropical 7: 127-133. DOI: 10.1590/S1676- 06032007000300015 HAN M, FUKUSHIMA M, KAMEYAMA S, FUKUSHIMA T & MATSUSHITA B. 2008. How do dams affect freshwater fish distributions in Japan? Statistical analysis of native and nonnative species with various life histories. Ecological Research 23: 735-743. DOI: 10.1007/s11284-007-0432-6 74 HUSTON MA. 1994. Biological diversity: the coexistence of species on changing landscapes. Cambridge University Press, Cambridge, 681p. KALFF J. 2002. Limnology: Inland Water Ecosystems.: Prentice Hall, Upper Saddle River, NJ, 592p. LOWE-MCCONNELL RH. 1987. Ecological studies in tropical fish communities. Cambridge Tropical Biology Series, Cambridge University Press, Cambridge, 400 p. MAKRAKIS S, GOMES LC, MAKRAKIS MC, FERNANDEZ DR & PAVANELLI CS. 2007. The Canal da Piracema at Itaipu Dam as a fish pass system. Neotropical Ichthyology 5: 185-195. MARTINEZ PJ, CHART TE & TRAMMEL MA. 1994. Fish species com- position before and after construction of a main stem reservoir on the White River, Colorado. Environmental Biology of Fishes 40:227–239. DOI: 10.1007/BF00002509 PELICICE FM & AGOSTINHO AA. 2008. Fish-passage facilities as ecological traps in large neotropical rivers. Conservation Biology 22: 180-8. DOI: 10.1111/j.1523- 1739.2007.00849.x PFEIFFER WC, FISZMAN M, MALM O & AZCUE JM. 1986. Monitoring heavy metals pollution by the critical pathway analysis in the Paraíba do Sul River. The Science of the Total Environment 58: 73–79. PINTO BCT. 2008. Condicionantes Ambientais Estruturadoras das Assembleias de Peixes da Bacia do Rio Paraíba do Sul: Condição do Uso da Terra, do Habitat Físico e Qualidade Físico-química da Água. Ph.D. Tese. Instituto de Biologia UFRRJ, Rio de Janeiro 236p. PINTO BCT, ARAÚJO FG & HUGHES RM. 2006. Effects of landscape and riparian condition on a fish index of biotic integrity in a large southeastern Brazil river. Hydrobiologia 556: 69–83. DOI: 10.1007/s10750-005-9009-y PODDUBNY AG & GALAT DL. 1995. Habitat associations of upper Volga River fishes: effects of reservoirs. Regulated Rivers: Research and Management 11: 67–84. POFF NL & HART DD. 2002. How dams vary and why it matters for the emerging science of dam removal. BioScince 52: 659–668. POMPEU PDS & MARTINEZ CB. 2007. Efficiency and selectivity of a trap and truck fish passage system in Brazil. Neotropical Ichthyology 5: 169-176. ROSA RS & LIMA FCT. 2007. Os Peixes Brasileiros Ameaçados de Extinção. In Machado A, Drummond G, Martins CS (eds.), 2007. Livro Vermelho da Fauna Brasileira Ameaçada de Extinção V II. Fundação Biodiversitas, Belo Horizonte, 278 p. SANTOS ABI, CAMILO FL, ALBIERI RJ & ARAÚJO FG. 2011. Morphological patterns of five fish species (four characiforms, one perciform) in relation to feeding habits in a tropical reservoir in south-eastern Brazil. Journal of Applied Ichthyology 27: 1360- 1364. DOI: 10.1111/j.1439-0426.2011.01801.x SANTOS HA, POMPEU PS, VICENTINI GS & MARTINEZ CB. 2008. Swimming performance of the freshwater Neotropical fish: Pimelodus maculatus Lacepède, 1803. Brazilian Journal of Biology 68: 433–439. DOI: 10.1590/S1519- 69842008000200029 SANTOS RN, ANDRADE CC, SANTOS AFGN, SANTOS LN & ARAÚJO FG 2005. Hystological analysis of ovarian development of the characiform Oligosarcus hepsetus (Cuvier, 1829) in a Brazilian reservoir. Brazilian journal of biology 65, 169-77. DOI: 10.1590/S1519-69842005000100020 75 TERRA BF, SANTOS ABI & ARAÚJO FG. 2010. Fish assemblage in a dammed tropical river: an analysis along the longitudinal and temporal gradients from river to reservoir. Neotropical Ichthyology 8: 599-606. DOI: 10.1590/S1679- 62252010000300004 VAZZOLER AEAM. 1996. Biologia da Reprodução de Peixes Teleósteos: Teoria e Prática. EDUEM, Maringá, 169 p. WARD JV. 1998. Riverine landscapes : biodiversity patterns, disturbance regimes, and aquatic conservation. Biological Conservation 83: 269-278. DOI: 10.1016/S0006- 3207(97)00083-9 WILLIAMS JD, WINEMILLER KO, TAPHORN DC & BALBAS L. 1998. Ecology and status of piscivorous in Guri, an oligotrophic tropical reservoir. North American Journal of Fisheries Management 18: 274–285. DOI: 10.1577/1548- 8675(1998)018<0274:EASOPI>2.0.CO;2 WCD (WORLD COMMISSION ON DAMS). 2000. Dams and development: a new framework for decision-making. The report of the World Commission on Dams. Earthscan Publishing, London 404p.	por
dc.subject.cnpq	Zoologia	por
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/14810/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/15162/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/21430/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/27786/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/34154/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/40532/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/46902/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/53314/2012%20-%20Rafael%20Jardim%20Albieri.pdf.jpg	*
dc.originais.uri	https://tede.ufrrj.br/jspui/handle/jspui/3510
dc.originais.provenance	Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2020-05-12T00:47:59Z No. of bitstreams: 1 2012 - Rafael Jardim Albieri.pdf: 4422321 bytes, checksum: cc18a7e71ddf0662cebcdf8902d7d05b (MD5)	eng
dc.originais.provenance	Made available in DSpace on 2020-05-12T00:48:01Z (GMT). No. of bitstreams: 1 2012 - Rafael Jardim Albieri.pdf: 4422321 bytes, checksum: cc18a7e71ddf0662cebcdf8902d7d05b (MD5) Previous issue date: 2012-08-23	eng
Appears in Collections:	Doutorado em Biologia Animal

Se for cadastrado no RIMA, poderá receber informações por email.
Se ainda não tem uma conta, cadastre-se aqui!

Files in This Item:

File	Description	Size	Format
2012 - Rafael Jardim Albieri.pdf	2012 - Rafael Jardim Albieri	4.32 MB	Adobe PDF	View/Open

Show simple item record